A guard assembly for a canopy of a machine includes a roof portion defining a first end, a second end, and a first length. The guard assembly includes at least two bracket members fixedly coupled to the roof portion. The at least two bracket members define a plurality of first through-holes and a plurality of second through-holes. Each of the plurality of first and second through-holes aligns with a corresponding aperture of the plurality of apertures in the frame member to receive a mechanical fastener therethrough. The guard assembly also includes at least two first support structures spaced apart along a first length defined by the roof portion. The guard assembly further includes at least one second support structure extending along the first length defined by the roof portion.

The present invention relates to all terrain vehicles having at least a pair of laterally spaced apart seating surfaces.

A utility vehicle including an operator cab, an operator support positioned within the operator cab and movable relative to the operator cab, a mirror positioned outwardly relative to the operator cab, and a control system including a controller in communication with the operator support and the mirror. The controller is configured to select a first setting from a first plurality of settings and a second setting from a second plurality of settings. Each setting of the first plurality of settings corresponding to one of a plurality of operations performed by the vehicle and each setting of the second plurality of settings corresponding to one of a plurality of operators. The controller is configured to adjust at least a position of the support relative to the cab and a position of the mirror relative to the operator cab based on the first setting and the second setting.

A utility vehicle includes a chassis, a prime mover supported by the chassis, an operator cab supported by the chassis, a control system including a controller, an operator support positioned within the operator cab and having a seat portion and a backrest portion and an actuator positioned within at least one of the seat portion and the backrest portion. The actuator is in communication with the controller and configured to move in a first pattern in response to a first notification signal from the controller in order to relay information to the operator.

A work vehicle includes: a travel device supporting a body; a battery; a motor configured to supply motive power to the travel device; an inverter configured to enable the motor to operate; a cabin supported by the body and housing a driving section that includes a driver seat; and an air conditioner configured to condition air inside the cabin. The inverter is inside the cabin.

A working vehicle includes a vehicle body, a cabin on the vehicle body, a clutch pedal in the cabin, a clutch on the vehicle body, a clutch operator to engage and disengage the clutch, a linkage including first and second ends, the first end being connected to the clutch operator, and a linkage lock to interlock the clutch pedal with the second end of the linkage so that vibrations of the cabin are reduced or prevented from being transmitted to the clutch.

A guard assembly for a canopy of a machine includes a roof portion defining a first end, a second end, and a first length. The guard assembly includes at least two bracket members fixedly coupled to the roof portion. The at least two bracket members define a plurality of first through-holes and a plurality of second through-holes. Each of the plurality of first and second through-holes aligns with a corresponding aperture of the plurality of apertures in the frame member to receive a mechanical fastener therethrough. The guard assembly also includes at least two first support structures spaced apart along a first length defined by the roof portion. The guard assembly further includes at least one second support structure extending along the first length defined by the roof portion.

Each of a pair of rear side face windows of a cab extends rearward from each of a pair of rearmost pillars. A rear face window is connected to each of the pair of rear side face windows and located in the rear of the rearmost pillars. The rear face window is inclined such that an upper portion thereof is located more rearward than a lower portion thereof, and it is entirely made of glass from a first rear side face window representing one of the pair of rear side face windows to a second rear side face window representing the other of the pair of rear side face windows.

A vehicle includes a passenger capsule, a front module, a rear module, an engine, a transaxle, a front lift structure, and a rear lift structure. The front module is coupled to a front end of the passenger capsule. The front module includes a first longitudinal frame member, a second longitudinal frame member, and a front axle assembly. The rear module is coupled to a rear end of the passenger capsule and includes a rear axle assembly. The engine is coupled to the front module. The transaxle is coupled to the rear module. The transaxle includes a housing. The rear axle assembly includes a component that is directly coupled to the housing of the transaxle. The front lift structure includes protrusions extending from the first longitudinal frame member and the second longitudinal frame member. The rear lift structure includes protrusions extending from opposing lateral sides of the structural shell.

A military vehicle includes a passenger capsule having a front end and a rear end, a front module coupled to the front end, and a rear module coupled to the rear end. The front module includes a front axle, a front differential, an engine, and a transmission. The front differential is coupled to the front axle. The front differential functions as a structural component of the front module. The front differential defines an engine mount. The engine is at least partially supported by the engine mount of the front differential. The transmission is coupled to the engine. The rear module includes a rear axle and a transaxle. The transaxle includes a housing, a transfercase disposed within the housing, and a rear differential disposed within the housing. The transfercase is coupled to the transmission, the front differential, and the rear differential. The rear differential is coupled to the rear axle.